CN106028471A - Always-on bearer for small data transfers in LTE systems - Google Patents
Always-on bearer for small data transfers in LTE systems Download PDFInfo
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- CN106028471A CN106028471A CN201610289226.7A CN201610289226A CN106028471A CN 106028471 A CN106028471 A CN 106028471A CN 201610289226 A CN201610289226 A CN 201610289226A CN 106028471 A CN106028471 A CN 106028471A
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Abstract
When a UE in an LTE system enters the RRC_IDLE state, only the S5/S8 EPS bearer context is retained, and S1-AP and radio bearers are released. These bearers have to be re-established on per UE basis when the UE returns to RRC_CONNECTED state. A number of UE applications may send small data frequently, which causes the UE to toggle between IDLE and CONNECTED states. This leads to a great deal of signaling overhead as the radio bearer and the S1-U bearer must be frequently re-established as the UE transitions between IDLE to CONNECTED states. Described herein are methods and systems that provide an always-on S1-U bearer to reduce this signaling overhead.
Description
The application is in entitled " biography for the small data in LTE system of JIUYUE in 2013 submission on the 27th
The most online defeated carrying " the divisional application of application for a patent for invention 201380044721.6.
Priority claim
This application claims in the U.S.Provisional Serial of JIUYUE in 2012 submission on the 28th
The priority of NO.61/707784, the entire disclosure of which is incorporated herein by way of reference.
Technical field
Embodiment described herein generally relates to wireless network and communication system.
Background technology
In LTE (Long Term Evolution) cellular system, as third generation partner program (3GPP)
LTE specification in illustrated, (wherein, terminal is referred to as user in LTE system to mobile terminal
Equipment or UE) it is connected to base station (being referred to as evolved node B or eNB in LTE system),
Base station be UE provide the LTE system of externally connected network (such as, the Internet) other
The connection of network entity.There is provided such network to connect to relate to: between the different parts of LTE system
Set up the bi-directional data path being referred to as carrying.When UE from idle state transition be connection status time set up
These carryings, and when the UE free time, in order to improve efficiency, then these carryings are removed.But, one
A little LTE application may relate to small data transmission frequently, wherein, after each such transmission,
UE is all changed into idle condition.The most repeatedly set up and remove carrying and cause substantial amounts of letter
Make expense.Reduce the purpose that described signaling consumption is the disclosure.
Accompanying drawing explanation
Fig. 1 shows the major networks entity of LTE system;
Fig. 2 shows the operation example of the most online S1-U carrying saving S1-MME signaling;
Fig. 3 shows the example of the RRC connection request with permanent online designator;
Fig. 4 shows the example of the enhancement mode attaching process of the most online S1-U carrying;
Fig. 5 shows the example of enhancement mode S1-release message sequence;
Fig. 6 shows the example of S1 call release stream decision-making;
Fig. 7 shows the example of the tracing section updating utilizing S-GW reorientation;
Fig. 8 shows the example of the service request of amendment;
Fig. 9 shows the example of the downlink transmission of the most online S1-U carrying;
Figure 10 shows the example of the eNB reorientation utilizing S-GW reorientation;
Figure 11 shows, on X2 interface, from old eNB, safe context is transmitted the example to new eNB;
Figure 12 shows that safe context is transmitted to new eNB by use configuration transmitting procedure from old eNB
Example.
Detailed description of the invention
The high-level architecture of LTE can be described as including three major parts: subscriber equipment (UE);Drill
Enter type UMTS Terrestrial radio access network (E-UTRAN) and Evolved Packet Core (EPC),
Wherein, E-UTRAN is collectively known as EPS (Evolved Packet System) together with EPC.UE is permissible
Be cell phone or with the E-UTRAN being made up of single parts (evolved node B (eNB))
Carry out other devices of radio communication.ENB with EPC communicates, then EPC with in the external world
Packet data network in (such as, the Internet) communicates.
Fig. 1 shows the major networks entity of LTE system, and wherein, special entity may include that place
Reason Circuits System, adds suffix " a " in its reference;Network interface circuit system, attached at it
Figure labelling adds suffix " b ";And there is radio frequency (RF) transceiver of one or more antenna,
Suffix " c " is added in its reference.ENB 105 provides RF communication link, RF to UE 100
Communication link is wireless or air interface sometimes referred to as LTE.ENB is be referred to as community one
Or multiple geographic areas service the base station of UE.UE communicates with an eNB every time, and
When the ue moves, during being referred to as " transfer ", another eNB can be switched to.eNB
All UE offer uplink data channel in its community and down-link data channel, and
(relay) data service is relayed between UE and EPC.ENB sends signaling message also by UE
Control their low-level operation.The critical piece of EPC is shown as: (mobile management is real for MME 110
Body), HSS 125 (home subscriber server), S-GW 115 (gateway) and P-GW 120
(packet data network (PDN) gateway).MMW controls the high level operation of UE, described high-rise behaviour
Work includes: to communication session, safety and ambulant management.Each UE is assigned to permissible
The single service MME changed when the ue moves.HSS is to comprise ordering of relevant all-network operator
The central database of the information at family.P-GW is the contact point of EPC and the external world, and with one
Or multiple packet data network (such as, the Internet) exchange data.S-GW act as at eNB
And the router between P-GW.The same with MME, each UE is assigned to can be at UE
The single service S-GW changed time mobile.
Air interface provides communication path between UE and eNB.Network interface is at eNB and EPC
Between and between the different parts of EPC, provide communication path.Network interface includes: at eNB
And the S1-MME interface between MME;S1-U interface between eNB and S-GW;Not
The same X2 interface between eNB;S10 interface between different MME;MME with
S6a interface between HSS;S5/S8 interface between S-GW and P-GW;And at P-GW
And the SGi interface between PDN.These network interfaces can represent and transmit transmission over networks at bottom
Data.
At high level, network entity in FIG relies on the stream of packets (quilt set up by concrete agreement
Referred to as " carrying ") communicate on the interface between described network entity.UE Yu eNB uses number
Communicate according on both radio bearer and Signaling Radio Bearer (SRB) interface aloft.ENB profit
(S1-MME carrying is also referred to as S1-AP (S1 Application Protocol) and holds in the carrying close by title
Carry) communicate with MME on S1-MME network interface, and on S1-U network interface with S-GW
Communication.The combination of Data Radio Bearer, S1-U carrying and S5/S8 carrying is referred to as EPS carrying.
When UE is connected to PDN, EPC all sets up the EPS carrying being referred to as default bearing.UE
Other EPS carrying being referred to as dedicated bearer can be received subsequently.
Each interface discussed above is all relevant to the protocol stack being used for exchanging data by network entity
Connection.Agreement in LTE is divided into user-plane protocol and controls plane protocol.User plane is by what is called
AS (Access Layer) carry user data, and include for the agreement with lower interface: at UE
And the air interface between eNB;S1-U interface between eNB and S-GW;And at S-GW
And the S5/S8 interface between P-GW.The user plane part of S1-U and S5/S8 interface uses GTP
Agreement (GPRS (GPRS (general packet radio service)) tunnel protocol), for transmitting IP packet.GTP
Encapsulation initial IP packet, flows between UE and suitable eNB to guarantee to be grouped in.
Control plane and be responsible for the connection that controls between UE and network, and include for UE with
The protocol stack of the air interface between eNB, RRC (wireless heterogeneous networks) agreement is positioned at this protocol stack
Top.RRC is the major control agreement for AS, and it is responsible for using RRC signaling at eNB
And set up radio bearer between UE and configure lower level.Between UE and MME run and
UE is positioned at the control plane protocol above RRC and is referred to as NAS (Non-Access Stratum) agreement, and
Including EMM (EPS mobile management) agreement and ESM (EPS session management protocol).NAS assists
View is used by MME, to manage the connectedness of UE Yu EPC.Because NAS agreement is not present in eNB
In, therefore RRC and S1-AP (S1 Application Protocol) is respectively between UE and eNB and at eNB
And it is used as the transportation protocol of NAS message between MME.
In current 3GPP LTE framework, UE performs some steps, is attached to for by self
EPS.First, it is set up to be connected with the RRC of eNB and sets up SRB (Signaling Radio Bearer), from
And move to RRC_ from idle (RRC_IDLE) state of so-called RRC_ and connect
(RRC_CONNECTED) state.After establishing rrc connection, UE sets up S1-MME
Carrying.Subsequently, set up S5/S8, S1-U and radio bearer to form EPS carrying.To network
This attachment occur on a per ue basis, and relate to the establishment in a large amount of different pieces of information tunnel.When
UE enter RRC_ idle condition time, only retain S5/S8EPS bearer context, and discharge S1-U,
S1-AP and radio bearer.When UE returns RRC_ connection status, it is necessary on the basis of each UE
These carryings of upper reconstruction.Some UE application may send small data continually, and this can make UE at sky
Change between not busy state and connection status.When UE changes between idle condition and connection status, must
Must rebuild radio bearer and S1-U carrying continually, this will cause substantial amounts of signaling consumption.
The most online S1-U carrying
For rebuild the solution avoiding too much signaling consumption while tunnel be have acquiescence,
The most online S1-U carrying.When UE enters RRC_ idle pulley, can keep being associated
S1-U information, thus when UE wakes up from idle condition, it is not necessary to rebuild S1-U carrying.That is, when
It is in the UE of RRC_ idle condition when being converted to RRC_ connection status, it is only necessary to set up radio bearer,
And S1-MME signaling is dispensable.Scheme according to an embodiment is in fig. 2 as the stage 1
Illustrating to 10, it relates to UE, eNB, S-GW and P-GW.Stage 1 is to create by wireless
The UE's of the EPS carrying of carrying, S5/S8 carrying and the most online S1-U carrying composition is attached
Process.In the stage 2, UE is in connection mode, and is utilizing small data transmission frequently
Run application.In the stage 3, the user's inactivity timer at eNB expires, and this tells eNB
UE is placed in idle pulley.In the stage 4, when RRC connects and discharged by eNB, UE retains
For the most online S1-U carrying, S-GW IP (Internet protocol) address and S-GW TIED
(tunnel endpoint identifier).In the stage 5, eNB retains UE context;And in the stage 6,
S-GW retains the information about the most online S1-U carrying and maintains S5/S8 to carry.In the stage
In 7, UE enters idle pulley.In the stage 8, UE sends NAS service request (example to eNB
As because its have data need send) and by the S-GW information of reservation the most incidentally to
eNB.In stage 8a, rebuild radio bearer, and in stage 8b, eNB uses subsidiary
Radio bearer is connected to the most online S1-U carrying by S-GW information.In the stage 9, S-GW
Use the contextual information retained that the most online S1-U carrying is mapped to S5/S8 carrying.Thus,
In the stage 10, in the case of being not related to S1-MME signaling, rebuild EPS carrying.
The amendment of call-flow
Disclosed below is to modify existing call stream, in order to realizes the most online S1-U and holds
The concept carried.To attaching process, S1-release process, service request procedure, S-GW repositioning process,
And the amendment of hand-over is described.When the S1-U carrying that UE request is the most online, need
ENB and MME both of which to be made perceives.In one embodiment, use " forever in RRC signaling
The most online designator " inform eNB.RRC connection request message includes UE identity and sets up reason.
Introduce and new set up reason, i.e. the most online S1-U carrying, in order to instruction UE wants to create
The most online S1-U carrying as shown in Figure 3, Fig. 3 lists the IE of RRC connection request message
(information unit).It is static state, permanent that described permanent online designator informs that eNB:S1-U is carried as
Online carrying, and during S1-release process, eNB should not delete UE context.Increase
Set up reason provide for require for mobile initiate to access or Mobile Termination accesses permanent
The instruction of the request of the S1-U carrying of line.
Can by make eNB receive as described above S1-U carrying UE ask after,
Sl-AP initial UE message forward permanent online designator as " RRC sets up reason " information list
A part for unit, so that MME can require the UE request of the most online S1-U carrying with perception.
Alternatively, NAS message can be also used for passing on to MME: it must be set up the most online S1-U
Carrying.About Attach Request message, new designator can pass through signal in a kind of mode in following
Send: 1) the field EPS type of attachment of the type of attachment asked for instruction can be strengthened, with
Instruction has the new type of attachment of carrying the most online for S1-U;2) and, additional updating type IE
Can serve to indicate that the new type of attachment with carrying the most online for S1-U;Or, 3) and can be
New IE defined in Attach Request message.Similarly, other NAS message (such as, service request or
Trace regions is more newly requested) the most online S1-U instruction can be included.Forever exist receiving to have
After the NAS request of the S1-U instruction of line, inform MME: the most online carrying will be set up, from
And make MME not delete UE contextual information at S1 deenergized period.
The enhancing of attaching process
The attaching process described in the 5.3.2 chapters and sections of 3GPP TS 23.401 can be appropriately modified,
Thus contribute to as using the application of permanent online designator (to include that MTC (machine type communication) should
With) create the most online carrying.In one embodiment, send/receive decimal continually as UE
According to time, first UE can indicate: it needs the most online carrying.This instruction can be attached
In RRC connection request message or on Attach Request message.This instruction informs that eNB discharges at S1-
Period does not delete UE context.Identical instruction can also be sent to MME and S-GW, with
Just retain UE context when asking the most online S1-U carrying and EPS carries information.
In one embodiment, it is allowed to the needs of the most online S1-U carrying are verified by MME.
Depending on user profiles or other user behaviors, Virtual network operator can the optionally use in HSS
The attachment of the configuration optimization that (uses the most online S1-U) in the own subscription profile of family.If this parameter is swashed
Live, then this parameter is downloaded to MME as the part updating position process.To create at MME
Conversation request message sends to S-GW, thus before creating the most online carrying, MME checking exists
Subscription data in HSS, and the most online held by the confirmation as shown in the stage 11 of figure 4 below
The needs carried.
In one embodiment, as follows the most online S1-U carrying is informed to S-GW.
MME selects the EPS carrying mark of S-GW and the distribution default bearing for being associated with UE.
Then MME sends creating conversation request message to selected S-GW.Request type is arranged to tool
There is the request type that the most online S1-U carries.This informs S-GW: created permanent online
Carrying, and when UE enter idle pulley time will retain context.Can be with in the following two kinds mode
A kind of TEID (being referred to as " S-GW TEID ") used on S1-U interface by S-GW that assigns:
1) if the most online carrying is only supported for Hypomobility UE, refer to the most in usual way
Send S-GW TEID, i.e. making its value is unique on given S1-U interface;Or, 2)
If supporting the most online carrying in conjunction with UE mobility, then according to making its value by identical S-GW
It is that unique this mode is to assign S-GW TEID on all S1 interfaces of service.Explained as follows
, the most special S-GW TEID assigns mode to make SGW be capable of identify that for particular user plane
The most online carrying of packet, does not considers to receive the S1 example of this user plane packets.
In certain embodiments, also S-GW TEID and S-GW IP address are informed to UE.Only
It is only possible to when UE mobility supports the most online carrying described in needs inform combining.Will be with S1
The most online some the relevant information that carry (that is, are assigned to the SGW IP of the most online carrying
Address and SGW TEID) sent to UE by signal via AS (Access Layer) or NAS signaling.
Such as, RRC connection reconfiguration message may be used for subsidiary to S-GW TEID and S-GW IP address
To UE, or, alternatively, this information can be subsidiary in attachment accepts message by MME.UE
Store this information, and when UE becomes connection mode from idle pulley, this information is transferred to eNB.
Then eNB use the information to identify and be connected to " having " the most online S1-U carrying
S-GW.It is critically important that UE stores this information, if this is because UE is mobile, the most
The eNB remaining UE context may change (but new eNB may still have identical S-GW).
Fig. 4 show according to an embodiment by the stage 1 to 26 form permanent online for obtaining
S1-U carrying enhancement mode attaching process.In the stage 1, Attach Request message is sent extremely by UE
There is the eNB of the most online carrying asked, the most online stage that is carried on 2 asked
In be forwarded to MME.The most online S1-U carrying can be by eNB by arranging type of attachment
Make requests on.Stage 3 and stage 4, identity request and identity response message UE Yu MME it
Between send.The option process of the detection of certification/safety, identity and encryption at stage 5a~stage 5b and
Stage 6 is carried out.In stage 7 and stage 8, MME will delete conversation request message and send to P-GW,
And then receive and delete conversational response message, in order to remove previous carrying.In stage 9 and stage
In 10, MME will update location request message and send to HSS, and then receive renewal position sound
Should, thus MME can use HSS information to come the most online S1-U carrying in the stage 11
Request verify.In the stage 12, MME will create conversation request message and send to S-GW,
Wherein, request type is set to the most online S1-U carrying, and in the stage 13, this is disappeared
Breath is forwarded to P-GW.In stage 14, create conversational response message received by S-GW, together with
Stage 15 is received down link data (if not yet transferring) by S-GW, and in the stage
In 16, this response is forwarded to MME.Then, in the stage 17, initial context is set up by MME
Request and attachment accept message and send to eNB.In the stage 18, RRC connection is reconfigured by eNB
Message sends to UE, and this message also will be used for S-GW IP address and the S-GW of the most online carrying
TEID informs UE.In the stage 19, RRC is reconfigured completion message and sends to eNB by UE.?
In the stage 20, initial context is set up completion message to send to MME by eNB, and in the stage 22
Attachment completion message is sent to MME.In the stage 21, UE will directly transmit message and send extremely
eNB.In the stage 23, MME will revise bearing request message and send to S-GW, and described amendment carries
Request message is forwarded to P-GW.In the stage 24, P-GW will revise request response and send
To S-GW, described amendment request response is forwarded to MME.In stage 25 and stage 26,
The request of exchange circular and circular response message between MME and HSS.
Enhancing to S1 release process
Fig. 5 shows that (on S1-MME) only discharges enhancement mode S1 that logic S1-AP signaling connects
The example of release process.In the stage 1, the user's inactivity timer at eNB expires, and initiates
This process.In stage 2 and stage 3, retained UE contextual information by eNB and S-GW respectively.
In the stage 5, eNB sends RRC connection release message to UE.After the process was complete, UE from
ECM-connection status moves to ECM-idle condition.As inciting somebody to action during attaching process described above
The most online S1-U carrying is informed to eNB, MME and S-GW, at eNB, MME and S-GW
Place retains the contextual information relevant to UE.
In one embodiment, as illustrated in FIG. 6, in the stage 601, when at eNB, user is not
When active time expires, it is in the stage 602, checks whether the carrying set up is the most online
S1-U carries.If it is then in the stage 603, eNB retains UE contextual information, and S-GW
Also retain configuration detail together with the mapping details being mapped to S5/S8 carrying.It addition, in the stage 604,
It is followed such as the normal release process described in the 5.3.5 chapters and sections of 3GPP TS 23.401.
RRC connection release message is sent to UE, in order to the RRC being released between UE and eNB
Connect.In the case of having occurred that transfer and having utilized S-GW reorientation to change eNB,
Then eNB can use RRC connection release message to attach new S-GW IP address and S-GW
TEID.In the case of need not any MME signaling, UE remains S-GW TEID and S-GW
IP address, and this information is supplied in service request information eNB, thus be connected to forever exist
The carrying of line.
Utilize the enhancement mode tracing Area renewal process of S-GW reorientation
Fig. 7 shows the enhancement mode tracing Area renewal process according to an embodiment.On stage 1 and rank
Section 3 performs TAU (tracing Area renewal) process.When tracing Area updates along with S-GW change
During generation, then in the stage 2 new S-GW will create conversational response message send to new MME, should
Create conversational response message include for the new S-GW address of user plane and new S-GW TEID and
(for S5/S8's) P-GW TEID for uplink service.This needs to be relayed to UE,
S-GW TEID and IP address are updated at UE, thus contribute to being connected to the most online
Tunnel.Before informing this address to UE, first delete old session.In the stage 4, old MME
Send to old S-GW and delete conversation request message, and in the stage 5, receive deletion conversational response.
Then, in the stage 6, accept message by tracing section updating and attach and send new S-GW IP address
With S-GW TEID.In the stage 7, UE obtains new S-GW IP address and S-GW TEID, and
And send tracing section updating completion message to new MME in the stage 8.
Enhanced service request process for the most online S1-U carrying
When employing the most online carrying, it is possible to use the service request procedure of amendment, in order to
UE is attached to network when entering connection mode.The saving according to an embodiment is shown by Fig. 8
The example of the enhanced service request process of S1-MME signaling.In the stage 1, following for such as
After the S1-release process in upper the most online described tunnel, UE is in idle pulley.On rank
In section 4, when UE is in ECM-idle condition, UE initiates service request.When UE must be from
When EMM_ idle pulley becomes EMM_ registration mode, NAS service request information is sent from UE
To eNB.In the presence of when uplink data or when exist UE initiate uplink data time, when
During by MME paging UE, send this message.In the stage 3, UE will be encapsulated in RRC information
NAS message service request send to eNB.If UE uses the most online S1-U carrying,
Then S-GW TEID the most within the message and S-GW IP address are sent to eNB by UE.Additionally,
If having been carried out TAU, then new S-GW TEID, S-GW address is sent to eNB, thus
Update the most online EPS carrying information and be connected to S1-U.In the stage 4, eNB receives
S-GW IP address and S-GW TEID, and radio bearer is mapped to S1-U carrying.In the stage 5
In, UE is authenticated by eNB, and performs the function relevant to safety.In the stage 6,
Radio bearer is set up between UE and eNB.In stage 7a and stage 7b, eNB uses static state
S-GW TEID and S-GW address are connected to S1-U carrying.In stage 7c, eNB sends vacation
UL data, to inform DL eNB TEID to S-GW.This can be by fixed from GTP-U header
Justice new " type of message " completes, or, existing message can be revised, such as Echo asks.
In stage 7d and stage 7e, the context of s5/S8 is maintained at S-GW, and by S1-U
It is mapped to S5/S8.In the stage 8, set up end-to-end tunnel, and, use during up-link
The eNB TEID sent, routes to S-GW and UE by down link data.
Fig. 9 shows entering when obtaining down link data according to an embodiment from eNB/MME
Row paging.In the stage 901, when downlink packets is sent to UE by PDN Gateway, first
At S-GW, packet is buffered.In the stage 902, during initial attachment, inform S-GW:
S1-U is carried as the most online, and S-GW determines that that's how things stand.In the stage 903,
When knowing that S1-U is carried as the most online carrying, S-GW sends the packet to eNB no matter
UE is in idle pulley or connection mode.In the stage 904, eNB determines that UE is in connecting
Pattern is in idle pulley.In the stage 905, if UE is in connection mode, then sends and divide
Group.If in the stage 906, UE is in idle pulley, then eNB uses the IMSI (state of UE
Border mobile subscriber mark) information paging UE in the community of its finally registration, and suitable seeking is set
Exhale reason.In the stage 907, if UE is still registered to described eNB, then UE receives packet.On rank
In section 908, if UE is not responding to, then eNB is via new GTP-U message or showing via amendment
Message (such as, Echo request) is had to inform S-GW: message transmits unsuccessfully.Subsequently, in the stage 909
In, S-GW asks MME to transmit described message by paging UE.In the stage 910, connecing
After receiving this request, the MME paging all eNB in the tracking area list of UE, and on rank
In section 911, the eNB paging UE accompanying by UE, to initiate service request.It is optionally possible to
The execution stage 912, thus check that UE is in high-mobility state or Hypomobility state.If place
In Hypomobility state, then eNB with paging UE, thus can inform that UE initiates service request.Separately
On the one hand, if UE is high mobility, then S-GW can send a message to MME thus paging
UE rather than require eNB paging UE.Once down link data is informed and just send out to UE, UE
Play enhanced service request process described above, thus be registered to network and receive service.
In another embodiment, S-GW runs inactivity timer, the value of described inactivity timer with
The value of eNB inactivity timer is compared identical or less.If intervalometer expires, then S-GW will
UE is labeled as the free time.In this case, if S-GW receives any down link data, then
Down link data will not be forwarded to eNB by S-GW, and can down link data notice be sent to
MME。
Utilize the enhanced call stream for eNB reorientation of S-GW reorientation
When eNB reorientation occurs along with S-GW reorientation, it is necessary at S-GW, eNB and P-GW
Place updates context, in order to contribute to the most online S1-U carrying.Shown according to one by Figure 10
The example embodiment in the stage involved by this process of individual embodiment.In the stage 1, receiving road
After the handover request of footpath, in the stage 2, MME utilizes bearer context will create conversation request message
Send to target S-GW.This message includes: every PDN of the default bearing accepted by target eNB
Connect accept EPS carrying the P-GW address of downlink user plane, the TEID of S5/S8,
ENB address and TEID.In stage 3a, amendment carrying request is sent to P-GW by target S-GW,
And in stage 3b, then receive amendment carrying response.In the stage 4, target S-GW is to MME
Send and create conversational response message.In the stage 5, MME sends path switching to target eNB please
Seeking confirmation message, this message is that eNB is given for the S-GW address of user-plane message and uplink
Road TEID.Stage 6 and stage 7a-stage 7b shows and is sent releasing to source eNB by target eNB
Put message related to resources and sent the deletion conversation request to source S-GW by MME, then sending and delete meeting
Words response.At the stage 8, perform tracing Area renewal process.Target eNB begins to use for forwarding
The new S-GW address of uplink packet subsequently and TEID.By this information is attached in as above institute
In the RRC connection release message of explaination, before S-1 discharges (before UE enters idle pulley),
New S-GW TEID and S-GW IP address are informed to UE.When UE enters connection from idle pulley
During pattern, UE can use new S-GW information and at clothes in the case of need not any signaling
By new S-GW Information application to eNB in business request message, thus it is connected to the most online carrying.
For transmitting the solution of UE and safe context
When performing enhanced service request process as described above, in order to be connected to the most online holding
During load, UE enters connection mode from idle pulley.If UE is the most altered when being in idle pulley
Its eNB and be connected to new eNB, then the safe context of UE must be transmitted from old eNB
To new eNB.It is described below when the eNB of UE has changed, by the safe context of UE
Scheme from old eNB transmission to new eNB.
One embodiment is as follows.For having the user of Hypomobility, if eNB infrequently changes,
So can as described in the 5.3.4 chapters and sections of 3GPP TS.23.401 to perform normal service requested
Journey.But, new eNB should send context release request to old eNB, thus informs old eNB
Release belongs to the context of UE.UE can have to eNB instruction UE in NAS service request
Hypomobility state.When receiving Hypomobility instruction, new eNB uses ECGI, and (E-UTRAN is little
District's global identifier) and the X2 that sets up with old eNB of old eNB IP address be connected, and send
UE context release message.Existing UE context release message can be strengthened, in order to inform old eNB
Release resource.X2 interface creates new information (that is, " release of UE context is replied "), this message
For by success/unsuccessfully inform to new eNB.Once new eNB receives and deletes UE context really
Recognize, then normal service request process continues.Alternatively, new eNB is once utilized to establish S1-U,
Then can be released in the context in old eNB by S-GW.
Figure 11 illustrates another embodiment.In this scenario, UE uses X2 interface by safety
Hereafter from old eNB transmission to new eNB.At UE before connection mode enters idle pulley, UE
Obtain the information about its eNB finally connected.In stage 1 and stage 2, UE obtains at RRC
ECGI and the IP address of eNB subsidiary in connection release message.After UE enters idle pulley,
Then UE can be mobile and can change eNB.When in the stage 3, UE initiates service request
Or when there is the network initiating service request, in the stage 4, UE is connected to new eNB and by it
ENB information once is subsidiary gives new eNB in NAS service request.In the stage 5, by than
The ECGI and oneself the ECGI, new eNB that are relatively sent by UE check the UE when being in idle pulley
Change eNB.In the stage 6, if ECGI is different, then eNB uses upper one
The IP address information of individual eNB, and set up X2 with it and be connected.In the stage 7, to request safety
Context X2 message is defined, in order to ask old eNB to be handed over to relevant safe context belong to
New eNB in UE.Equally, in the stage 8, safe context response message is defined,
Safe context to be carried to new eNB from old eNB on X2 interface.Once new eNB from
A upper eNB accompanying by UE receives safe context, and it just performs to set up in safety for UE
Hereafter, and call-flow continue, the such as rank from enhanced service request process illustrated in fig. 8
Section 6 continues.
In another embodiment, configuration transmitting procedure is used for the safety at old eNB via MME
Context transfer is to new eNB.When UE initiates service request procedure, UE sends UE to new eNB
The ECGI of the last eNB connected.This is by attaching once eNB in NAS service request
Information and complete.ENB compares this ECGI information and the ECGI information of oneself, and checks that UE is
No change eNB.If it is, new eNB initiates configuration transmitting procedure as shown in figure 12.
In the stage 1, new eNB sends to MME has SON (self-organizing network) configuration transmission IE
Transmission message is configured with the eNB of SON information request IE.In the stage 2, MME is by this message
The eNB, target eNB-ID IE that are forwarded in target eNB-ID IE instruction pellucidly are included in SON
In configuration transmission IE.In stage 3 and stage 4, comprise SON information request IE receiving
During SON information IE, old eNB configures transmitting procedure by initiating eNB, by the information transmission of request
Return the eNB of instruction in the source eNB-ID IE of SON configuration transmission IE.Configuration transmission message is entered
Row strengthens, in order to ask safe context from old eNB.In the present embodiment, describe such as Figure 12
Stage 6 to the stage 8 in Figure 11 will be substituted via the context transfer of MME.
Additional annotation and example
In example 1, a kind of evolved node B for working in LTE (Long Term Evolution) network
(eNB), comprising: process Circuits System;For wireless with what subscriber equipment (UE) communicated
Interface;For the S1-MME network interface communicated with mobile management entity (MME);For
The S1-U network interface communicated with gateway (S-GW);Wherein, when receiving from UE
During the request that the most online S1-U carries, process Circuits System instruction MME and work as UE to UE offer
S1-U carrying lasting when moving between RRC_ connection status and RRC_ idle condition, and
RRC_ idle condition or ECM_ idle condition is entered into during S1 release process or additionally as UE
Time retain UE contextual information.
In example 2, the theme of example 1 can include alternatively: wherein, processes Circuits System and uses
In: receive permanent from UE via the RRC connection request message wherein including permanent online designator
The request of online S1-U carrying.
In example 3, the theme of example 2 can include alternatively: wherein, in RRC connection request
Permanent online designator in message is that mobile initiation accesses or Mobile Termination accesses in the two
Set up reason.
In example 4, the theme of example 1 can include alternatively: wherein, processes Circuits System and uses
In: by the RRC connection request of permanent online designator will be comprised in S1-AP initial UE message
The reason of setting up of message is forwarded to MME to inform the request of S1-U carrying the most online for MME.
In example 5, the theme of example 1 can include alternatively: wherein, processes Circuits System and uses
In: send to eNB from UE by using, and the Non-Access Stratum (NAS) therefore sent to MME
Message informs the request of S1-U carrying the most online for MME.
In example 6, the theme of example 5 can include alternatively: wherein, processes Circuits System and uses
In: by forwarding Attach Request message to inform S1-U carrying request the most online for MME from UE,
Wherein, the EPS type of attachment field of Attach Request message comprises permanent online designator.
In example 7, the theme of example 5 can include alternatively: wherein, processes Circuits System and uses
In: by forwarding Attach Request message to inform S1-U carrying request the most online for MME from UE,
Wherein, the updating type field of Attach Request message comprises permanent online designator.
In example 8, the theme of example 5 can include alternatively: wherein, processes Circuits System and uses
In: by forwarding Attach Request message to inform S1-U carrying request the most online for MME from UE,
Wherein, the single information unit (IE) of Attach Request message comprises permanent online designator.
In example 9, the theme of example 5 can include alternatively: wherein, processes Circuits System and uses
In: by forwarding the service request information comprising permanent online designator to inform that MME is permanent from UE
Online S1-U carrying request.
In example 10, the theme of example 5 can include alternatively: wherein, processes Circuits System and uses
In: by forwarding the tracing section updating request message comprising permanent online designator to inform from UE
S1-U carrying request the most online for MME.
In example 11, the theme of example 1 can include alternatively: wherein, processes Circuits System and uses
In: receiving after attachment accepts message in response to the attachment request sent by UE from MME,
Forwarding attachment to accept message to UE, wherein, described attachment accepts message and includes to the most online S1-U
IP (Internet protocol) address of carrying distribution, selected S-GW and S-GW TEID (tunnel
Endpoint identifier).
In example 12, the theme of example 1 can include alternatively: wherein, processes Circuits System and uses
In: receiving after attachment accepts message in response to the attachment request sent by UE from MME,
RRC connecting reconfiguration message send to UE, wherein, described RRC connects bag in reconfiguration message
Include IP (Internet protocol) address to the most online S1-U carrying distribution, selected S-GW
With S-GW TEID (tunnel endpoint identifier).
In example 13, the theme of example 1 can include alternatively: wherein, processes Circuits System and uses
In: when expiring for user's inactivity timer of particular UE, check the S1-U for particular UE
Whether carrying is the most online carrying, and if it is, context same keeping particular UE
Shi Faqi S1 discharges process.
In example 14, the theme of example 13 can include alternatively: wherein, processes Circuits System
For: after initiating the S1 release for the UE with the most online S1-U carrying, if
Have occurred and that transfer is so that utilize S-GW reorientation UE to distribute to new eNB, then at RRC
Connection release message embeds to the most online S1-U carrying distribution, new S-GW IP address and
S-GW TEID。
In example 15, the theme of example 1 can include alternatively: wherein, processes Circuits System and uses
In: when for the UE with the most online S1-U carrying, there is the tracking of S-GW change
During district's renewal process, tracing section updating is asked message together with to the most online S1-U carrying distribution,
New S-GW IP address is forwarded to UE from MME together with S-GW TEID.
In example 16, the theme of example 1 can include alternatively: wherein, processes Circuits System and uses
In: receiving NAS service request information together with to the most online from the UE with S1-U carrying
After S1-U carries distribute, S-GW IP address and S-GW TEID, by the most online S1-U
Carrying is mapped to the radio bearer of UE.
In example 17, the theme of example 16 can include alternatively: wherein, processes Circuits System
For: after the most online S1-U carrying is mapped to the radio bearer of UE, it is connected to permanent
Online S1-U carries and transmits data to S-GW, thus informs that S-GW:DL is (descending
Link) eNB TEID.
In example 18, the theme of example 1 can include alternatively: wherein, processes Circuits System and uses
In: make to be newly assigned to the UE with the most online S1-U carrying if having occurred and that to transfer
ENB, then send the MME to UE by path handover request message, and true in path handover request
Recognize message obtains from MME be assigned to the most online S1-U carrying new S-GW IP address and
S-GW TEID。
In example 19, the theme of example 1 can farther include alternatively: is used for and another eNB
The X2 network interface communicated;Wherein, process Circuits System to be used for: the most online from having
The UE of S1-U carrying receives NAS service request information and holds together with being assigned to the most online S1-U
S-GW IP address, S-GW TEID, a upper eNB IP address and the upper eNB ECGI carried
After (E-UTRAN Cell Global Identifier symbol), and if the eNB of UE is the most altered and
Receive Hypomobility instruction from UE, then enhanced ue context release message is sent to UE's
A upper eNB, enhanced ue context release message informs that an eNB release is online with permanent
S1-U carry the resource that is associated;With the context that UE rebuilds safety.
In example 20, the theme of example 1 can farther include alternatively: is used for and another eNB
The X2 network interface communicated;Wherein, process Circuits System to be used for: the most online from having
The UE of S1-U carrying receives NAS service request information and holds together with being assigned to the most online S1-U
S-GW IP address, S-GW TEID, a upper eNB IP address and the upper eNB ECGI carried
After (E-UTRAN Cell Global Identifier symbol), and if the eNB of UE is the most altered, then please
Safe context message is asked to be sent to an eNB, in order to ask the peace of an eNB transmission UE
Full context;And, the safe context of the safe context including UE is received from a upper eNB
Response message.
In example 21, the theme of example 1 can farther include alternatively: is used for and another eNB
The X2 network interface communicated;Wherein, process Circuits System to be used for: the most online from having
The UE of S1-U carrying receives NAS service request information and holds together with being assigned to the most online S1-U
S-GW IP address, S-GW TEID, a upper eNB IP address and the upper eNB ECGI carried
After (E-UTRAN Cell Global Identifier symbol), if the eNB of UE changes:, to UE's
MME sends the increasing with SON (self-organizing network) configuration transmission IE and SON information request IE
Strong eNB configuration transmits message, for being forwarded to as being included in SON configuration transmission IE
A upper eNB indicated by target eNB-ID IE;And from upper the one of the safe context including UE
The eNB configuration that individual eNB receives by strengthening transmits the information that message is asked.
In example 22, a kind of mobile management for working in LTE (Long Term Evolution) network is real
Body (MME), comprising: process Circuits System;For leading to evolved node B (eNB)
The S1-MME network interface of letter;S11 network for communicating with gateway (S-GW) connects
Mouthful;Wherein, process Circuits System to be used for: when being forwarded permanent existing by eNB from UE (subscriber equipment)
During the request that the S1-U of line carries, set up when UE is in RRC_ connection status and RRC_ idle condition
Between the most online S1-U carrying for UE lasting when moving, and discharge process at S1
Period or additionally retain on UE when UE enters RRC_ idle condition or ECM_ idle condition
Context information.
In example 23, the theme of example 22 can include alternatively: wherein, processes Circuits System
For: by setting up the most online by creating conversation request message transmission to selected S-GW
S1-U carries, and request type is wherein set to the most online S1-U carrying, then creates session
Request message is forwarded to P-GW (grouped data network gateway), in order to set up the EPS of acquiescence (to drill
Enter grouping system) carrying.
In example 24, the theme of example 23 can farther include alternatively: for (returning with HSS
Belong to client server) the S6a network interface that communicates, and wherein, process Circuits System and be used for:
Before sending the S1-U carrying that establishment conversation request message is the most online with foundation, by utilizing HSS
Verify the subscriber data of UE, thus confirm the needs to the most online S1-U carrying.
In example 25, the theme of example 23 can include alternatively: wherein, processes Circuits System
For: receive the establishment meeting forwarded by S-GW from P-GW in response to creating conversation request message
Words response message, and the attachment such as forwarded by eNB is accepted message transmission to UE, to inform
UE: be assigned to the IP (Internet protocol) of the selected S-GW of the most online S1-U carrying
Address and S-GW TEID (tunnel endpoint identifier).
In example 26, the theme of example 23 can include alternatively: wherein, processes Circuits System
For: when occurring to eNB and the S-GW reorientation of new eNB and new S-GW, and from newly
After eNB RX path handover request message, conversation request message will be created and send to new S-GW, wound
Build conversation request message and have updated the bearer context of the default bearing accepted by new eNB;From
New S-GW receives and creates conversational response message;And path switching request acknowledgement message is sent to newly
ENB, described path switching request acknowledgement message comprises and is assigned to the most online S1-U carrying
The IP address of S-GW and the renewal of S-GW TEID (tunnel endpoint identifier).
In example 27, a kind of gateway for working in LTE (Long Term Evolution) network
(S-GW), comprising: process Circuits System;For communicating with evolved node B (eNB)
S1-U network interface;S11 network for communicating with mobile management entity (MME) connects
Mouthful;Wherein, process Circuits System to be used for: be set to request type forever exist when receiving from MME
During the establishment conversation request message of the S1-U carrying of line, set up have for UE the most online
The default EPS bearing of S1-U carrying, the described the most online S1-U for UE is carried on S1 and releases
During letting slip journey or additionally when described UE enters RRC_ idle condition or ECM_ idle condition
Continue.
In example 28, the theme of example 27 can include alternatively: wherein, processes Circuits System
For: if UE is not at high-mobility state, then distribution is for the most online S1-U carrying
S-GW TEID (tunnel endpoint identifier), so that its value is for holding for the most online S1-U
It is unique for the S1-U interface carried.
In example 29, the theme of example 27 can include alternatively: wherein, processes Circuits System
For: if UE is in high-mobility state, then distribution is for the most online S1-U carrying
S-GW TEID (tunnel endpoint identifier), so that its value is for all S1-U serviced by S-GW
It is unique for interface.
In example 30, the theme of example 27 can include alternatively: wherein, processes Circuits System
For: running inactivity timer, the value of described inactivity timer is not lived with use by eNB
The value of dynamic intervalometer is identical or than more it is little;And, if the inactivity timer of S-GW expires,
Then UE is labeled as the free time, and if receiving the down link data of UE, then by downlink
Data notification sends to MME.
In example 31, a kind of UE (user for working in LTE (Long Term Evolution) network
Equipment), comprising: transceiver, it provides for leading to eNB (evolved node B)
The air interface of letter;And it is connected to the process Circuits System of transceiver, if applications exploiting is little
Data transmission run so that transformation between RRC_ connection status and RRC_ idle condition
Quantity beyond concrete threshold value, then process Circuits System by request when UE in RRC_ connection status and
The message of the most online lasting when moving between RRC_ idle condition S1-U carrying sends to eNB.
In example 32, the theme of example 31 can include alternatively: wherein, processes Circuits System
For: send the request of the most online S1-U carrying from UE via RRC connection request message,
Wherein, in the most online S1-U carrying request, permanent online designator is included.
In example 33, the theme of example 31 can include alternatively: wherein, processes Circuits System
For: via Non-Access Stratum (NAS) message, the request of the most online S1-U carrying is sent to eNB.
Example 34 is a kind of for implementing by the process electricity in example 1 to any example of example 33
The method of the function that road system performs.
In example 35, a kind of machine readable media comprises instruction, when executed, and machine
Computer-readable recording medium makes machine implement by if example 1 is to the process circuit system cited by any example of example 33
Function performed by system.
In example 36, a kind of system, it includes for implementing by appointing such as example 1 to example 33
The module of what function performed by process Circuits System cited by example.
Detailed description of the invention above includes the reference to accompanying drawing, and these accompanying drawings define specific embodiment party
A part for formula.Illustrate as an example, those figures show the specific embodiment that can put into practice.This
A little embodiments are also referred herein as " example ".Such example can include except shown or
Element outside the element described.But, it is also envisioned that include showing of the element illustrating or describing
Example.And, relative to particular example (or, one or many aspects), or relative to this
Literary composition is shown or other examples (or, one or many aspects) of describing, it is also envisioned that
Use any combination of these elements (or, one or many aspects) illustrating or describing
Or the example of displacement.
The full content of publication, patent and patent document referred herein is herein incorporated by reference
Herein, as being the most individually incorporated herein.At presents and by reference
Using between these files being incorporated herein occurs in inconsistent event, to quoting of being incorporated to
Use be the use to presents supplement;For implacable discordance, with in presents
Use be as the criterion.
In this document, term " " or " one ", as normally used in patent document,
For include one or more than one, its independent of any other example or " at least one " or
The use of person's " one or more ".In this document, term " or " be used for representing non-exclusive
Property, or make " A or B " include " A, but be not B ", " B, but be not A " and
" A and B ", unless otherwise other explanations.In the appended claims, term " include " and
" wherein " it is used as corresponding term " to comprise " and the plain English equivalent of " wherein ".Equally,
In claims below, term " includes " and " wherein " is open, i.e. include
Except the element in addition to the element enumerating out after term such in claim system,
Device, article or process are still considered to fall in the range of this claim.And, with
Under claims in, term " first ", " second " and " the 3rd " etc. are used only as label, and
It is not intended to imply the numerical order of their object.
Embodiment can realize in various hardware configuration as described above, and described hardware configuration is permissible
Processor including the instruction for having performed described technology.Such instruction may be embodied in
In machine readable media, storage medium that described machine readable media is the most suitable or memorizer or
Other processors of person can perform medium.
As described herein embodiment can realize in many environments, many environment e.g. below
A part for environment: WLAN (WLAN), third generation partner program (3GPP) are general
Land radio access web (UTRAN) or Long Term Evolution (LTE) or Long Term Evolution (LTE)
Communication system, but the scope of the present invention is not limited to described aspect.Example LTE system includes by LTE
Specification is defined as the substantial amounts of movement station of subscriber equipment (UE), and described movement station is determined with by LTE specification
Justice communicates for the base station of eNode-B.
Antenna mentioned in this article can include one or more orientation or omnidirectional antenna, including:
Such as, dipole antenna, unipole antenna, paster antenna, loop aerial, microstrip antenna or be applicable to
The other kinds of antenna of RF signal transmission.In certain embodiments, it is possible to use there is multiple aperture
Individual antenna rather than two or more antenna.In these embodiments, can be by every
One aperture is as single antenna.In some multiple-input and multiple-outputs (MIMO) embodiment, permissible
Effectively separate antenna, thus utilize and may cause between each antenna and antenna of cell site
Space diversity and the different characteristics of channel.In some MIMO embodiments, antenna can be by up to 1/10
The wavelength of wavelength or bigger be separated.
In certain embodiments, receiver as described herein can be configured to: according to concrete
Communication standard receives signal, concrete communication standard e.g., IEEE
(IEEE) standard, including: IEEE 802.11-2007 and/or 802.11 (n) standard and/or for
The specification that WLAN proposes, but the scope of the present invention is not limited to described aspect, this is because they are also
Go for launching according to other technologies with standard and/or receiving communicating.In certain embodiments,
Receiver can be configured to: receives signal according to following standard: for wireless MAN (WMAN)
The IEEE 802.16-2004 including its modification and evolution, IEEE 802.16 (e) and/or IEEE
802.16 (m) standard, but the scope of the present invention is not limited to described aspect, this is because they also may be used
To be applicable to launch according to other technologies with standard and/or receive communicate.In certain embodiments, connect
Receipts machine can be configured to: comes according to universal land radio access web (UTRAN) LTE communication standard
Receive signal.For the more information about IEEE 802.11 and IEEE 802.16 standard, refer to
" ieee standard that the information technology-telecommunications between system exchanges with information " in May, 2005-
" Wireless LAN Medium accesses and controls (MAC) and physical layer LAN-specific requirement the-the 11 part
(PHY), ISO/IEC 8802-11:1999 " and Metropolitan Area Network (MAN)-specific requirement the-the 16 part " for solid
Determine the air interface of BWA " and relevant correction/version.For about UTRAN
The more information of LTE standard, see issue in March, 2008 for the of UTRAN-LTE version 8
Third generation partnership project (3GPP) standard, including its modification and evolution.
Description above is exemplified property, and nonrestrictive.Such as, above-mentioned example (or
Person, one or many aspects) can be in combination with one another.Such as ordinary skill in this area
Personnel are after having read described above, it is possible to use other embodiments.Summary is used for enabling reader
Quickly determine essence disclosed in this technology, such as, to defer to U.S. 37C.F.R. § 1.72 (b).Base
This summary is submitted to: it is not used in explanation or the scope limiting claim or implication in following understanding.
Equally, in above-mentioned detailed description of the invention, various features can be combined to organize the disclosure.
But, claims may be not set out each feature disclosed herein, because embodiment can
Can be characterized with the subset of described feature.Further, embodiment can include more public than in particular example
The feature that the feature opened is less.Thus, claims below is incorporated into detailed description of the invention accordingly
In, each claim self is all as single embodiment.The model of presently disclosed embodiment
Enclose the gamut reference appended claims of the equivalent being had together with these claims
It is determined.
Claims (18)
1. the enhancement mode being arranged to user plane evolved packet system (EPS) optimization function
The device of node B (eNB), described device includes:
Memorizer;And
Process Circuits System, be configured to:
Initiate to connect hang-up process, so that the user of EPS Connection Management (ECM) connection status will be in
The wireless heterogeneous networks (RRC) of equipment (UE) connects to be hung up, and described connection hang-up process is used for:
When described UE enters ECM-idle condition from described ECM connection status, storage is used for
The UE context of described UE, described UE context includes Access Layer (AS) context, S1
Application protocol (S1-AP) related information and bearer context;
S1-AP UE context is suspended request and is sent to mobile management entity (MME), described
S1-AP UE context suspends request and at least includes that the described S1-AP for described UE associates letter
Breath and described bearer context;
Receive S1-AP UE context from described MME and hang up response, on described S1-AP UE
Hereafter hang up response instruction to be released for the access bearer of described UE;And
Send RRC and connect message on hold, to indicate described RRC connection to be suspended to described UE,
Described RRC connects message on hold and is in response to receive described S1-AP UE from described MME
Hereafter hang up response and sent.
Device the most according to claim 1, wherein said eNB is also configured to
Perform to connect recovery process, to recover to be connected with the RRC of UE, thus by described UE from ECM
Idle state transition is used for ECM connection status, described connection recovery process:
Access the AS context of the described UE stored;
The radio bearer recovered is provided to described UE;And
Sending S1-AP UE context recovery request message to described MME, it includes being rejected
EPS carrying list, to inform described MME: recovered the RRC for described UE
Connect.
Device the most according to claim 2, the execution of wherein said connection recovery process includes institute
State eNB will perform to operate below:
Receiving from described UE will be by described eNB for upper and lower to the described AS stored at described eNB
The information that literary composition conducts interviews;
Determine to identify in described S1-AP UE context recovery request message any unaccepted
EPS carries;And
Receiving S1-AP context from described MME and recover response message, described S1-AP context is extensive
The received EPS of complex response message identification carries;And
When unaccepted EPS carrying is recovered response message by described MME at described S1-AP context
During middle identification, the radio bearer for described UE is reconfigured.
Device the most according to claim 3, wherein said connection is hung up the execution of process and is included institute
State eNB will perform to operate below:
Suspend request in response to described S1-AP UE context, receive S1-AP UE from described MME
Response hung up in context.
Device the most according to claim 4, wherein when receiving for forever existing from described UE
During the request that the S1-U of line carries, described process Circuits System is by following for execution operation:
Described MME is indicated to provide when described UE is empty with RRC in RRC connection status to described UE
S1-U carrying lasting when changing between not busy state, and
Retain during S1 release process and when described UE is converted to described ECM idle condition
Described UE context.
Device the most according to claim 5, wherein said device also includes:
For the wave point communicated with UE;
For the S1-MME network interface communicated with described MME;And
For the S1-U network interface communicated with gateway (S-GW).
Device the most according to claim 4, wherein performs described connection hang-up process targeted
UE is to be arranged to user plane EPS to optimize a UE of function, and
Wherein performing the targeted UE of described connection recovery process is to be arranged to user plane EPS
Optimize the 2nd UE of function.
Device the most according to claim 4, wherein performs described connection hang-up process targeted
UE be connected recovery process targeted UE described with execution is to be arranged to user plane EPS optimize
The same UE of function.
9. the user being arranged to user plane evolved packet system (EPS) optimization function sets
The device of standby (UE), described device includes:
Memorizer;And
Process Circuits System, be configured to:
When wireless heterogeneous networks (RRC) connects and is suspended, when changing from ECM connection status
During to ECM idle condition, storage Access Layer (AS) contextual information is for EPS connecting tube
Reason (ECM) connects;
Trigger connection recovery process by enhancement mode node B (eNB), and provide information to permit
Being permitted described eNB and access the corresponding AS contextual information of described UE, described connection recovered
Journey is used for recovering described ECM and connects;
Connect recovery process in response to triggering described RRC, receive the nothing recovered from described eNB
Line carries;And
Remove and its any EPS setting up radio bearer is not carried.
Device the most according to claim 9, wherein as one of described connection recovery process
Point, described process Circuits System is configured to:
Receive the radio bearer for being associated with unaccepted EPS carrying reconfigures information.
11. devices according to claim 10, wherein said process Circuits System is configured to,
Before the hang-up that described RRC connects, described UE is caused to perform initial connection establishment process, with pin
Described ECM is connected and sets up AS carrying and AS safe context.
12. devices according to claim 11, also include transceiver circuitry, in order to touch
Random access procedure is performed with described eNB before sending out connection recovery process described.
13. devices according to claim 12, also include being coupled to described transceiver circuitry
One or more antennas.
14. 1 kinds of storages are for being performed by one or more processors of enhancement mode node B (eNB)
The non-transitory computer readable storage medium of instruction, be configured to described eNB to perform operation with:
Initiate to connect hang-up process, so that the user of EPS Connection Management (ECM) connection status will be in
The wireless heterogeneous networks (RRC) of equipment (UE) connects to be hung up, and described connection hang-up process is used for:
When described UE enters ECM-idle condition from described ECM connection status, storage is used for
The UE context of described UE, described UE context includes Access Layer (AS) context, S1
Application protocol (S1-AP) related information and bearer context;
S1-AP UE context is suspended request and is sent to mobile management entity (MME), described
S1-AP UE context suspends request and at least includes that the described S1-AP for described UE associates letter
Breath and described bearer context;
Receive S1-AP UE context from described MME and hang up response, on described S1-AP UE
Hereafter hang up response instruction to be released for the access bearer of described UE;And
Send RRC and connect message on hold, to indicate described RRC connection to be suspended to described UE,
Described RRC connects message on hold and is in response to receive described S1-AP UE from described MME
Hereafter hang up response and sent.
15. non-transitory computer readable storage medium according to claim 14, wherein said eNB
It is also configured to
Perform to connect recovery process, to recover to be connected with the RRC of UE, thus by described UE from ECM
Idle state transition is used for ECM connection status, described connection recovery process:
Access the AS context of the described UE stored;
The radio bearer recovered is provided to described UE;And
Sending S1-AP UE context recovery request message to described MME, it includes being rejected
EPS carrying list, to inform described MME: recovered the RRC for described UE
Connect.
16. non-transitory computer readable storage medium according to claim 15, wherein said company
The execution connecing recovery process includes that described eNB will operate below performing:
Receiving from described UE will be by described eNB for upper and lower to the described AS stored at described eNB
The information that literary composition conducts interviews;
Determine to identify in described S1-AP UE context recovery request message any unaccepted
EPS carries;And
Receiving S1-AP context from described MME and recover response message, described S1-AP context is extensive
The received EPS of complex response message identification carries;And
When unaccepted EPS carrying is recovered response message by described MME at described S1-AP context
During middle identification, the radio bearer for described UE is reconfigured.
17. non-transitory computer readable storage medium according to claim 16, wherein said company
The execution connecing hang-up process includes that described eNB will operate below performing:
Suspend request in response to described S1-AP UE context, receive S1-AP UE from described MME
Response hung up in context.
18. non-transitory computer readable storage medium according to claim 17, wherein when from institute
When stating the request that UE receives for the most online S1-U carrying, described process Circuits System will be held
The following operation of row:
Described MME is indicated to provide when described UE is empty with RRC in RRC connection status to described UE
S1-U carrying lasting when changing between not busy state, and
Retain during S1 release process and when described UE is converted to described ECM idle condition
Described UE context.
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CN201380045452.5A Active CN104823394B (en) | 2012-09-28 | 2013-09-17 | For enhancing physical downlink control channel(EPDCCH)Blind decoding |
CN201810190190.6A Active CN108365941B (en) | 2012-09-28 | 2013-09-17 | Computer-readable medium and apparatus for determining enhanced physical downlink control channel candidates in a wireless communication network |
CN201611006069.0A Active CN106535338B (en) | 2012-09-28 | 2013-09-17 | For enhancing the circuit and device of the blind decoding of physical downlink control channel |
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CN201380045096.7A Expired - Fee Related CN104604167B (en) | 2012-09-28 | 2013-09-19 | Hybrid automatic repeat-request (HARQ) for carrier aggregation (CA) maps |
CN201380045374.9A Expired - Fee Related CN104604263B (en) | 2012-09-28 | 2013-09-19 | The method of seamless unicast-broadcast switching during the content streaming formatted for DASH |
CN201380045150.8A Active CN104704767B (en) | 2012-09-28 | 2013-09-20 | For method, circuit and the user equipment of the enhanced interferometry of channel state information (CSI) feedback |
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CN201380045631.9A Expired - Fee Related CN104813693B (en) | 2012-09-28 | 2013-09-27 | Reference Signal Received Power (RSRP) mobile status assessment to cellular device |
CN201810412036.9A Active CN108566267B (en) | 2012-09-28 | 2013-09-27 | User equipment, method, medium and device for ePDCCH |
CN201380045208.9A Active CN104584464B (en) | 2012-09-28 | 2013-09-27 | It is preferred that the transmission of power consumption configurations |
CN201380044721.6A Active CN104737619B (en) | 2012-09-28 | 2013-09-27 | Permanent online carrying for the small data transmission in LTE system |
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CN201380044772.9A Active CN104604301B (en) | 2012-09-28 | 2013-09-13 | User equipment selectively adds wireless area |
CN201380044871.7A Expired - Fee Related CN104604175B (en) | 2012-09-28 | 2013-09-17 | The user equipment and method that condition hybrid automatic repeat-request HARQ for carrier aggregation CA maps |
CN201380044888.2A Active CN104604165B (en) | 2012-09-28 | 2013-09-17 | For determining the device of the enhanced physical downlink control channel candidate in cordless communication network |
CN201380045272.7A Active CN104604282B (en) | 2012-09-28 | 2013-09-17 | Periodic channel state information reporting for Time Division Duplex (TDD) carrier aggregation systems |
CN201380045452.5A Active CN104823394B (en) | 2012-09-28 | 2013-09-17 | For enhancing physical downlink control channel(EPDCCH)Blind decoding |
CN201810190190.6A Active CN108365941B (en) | 2012-09-28 | 2013-09-17 | Computer-readable medium and apparatus for determining enhanced physical downlink control channel candidates in a wireless communication network |
CN201611006069.0A Active CN106535338B (en) | 2012-09-28 | 2013-09-17 | For enhancing the circuit and device of the blind decoding of physical downlink control channel |
CN201380044886.3A Active CN104584623B (en) | 2012-09-28 | 2013-09-18 | Managing device and method for supporting WLAN to unload |
CN201380045096.7A Expired - Fee Related CN104604167B (en) | 2012-09-28 | 2013-09-19 | Hybrid automatic repeat-request (HARQ) for carrier aggregation (CA) maps |
CN201380045374.9A Expired - Fee Related CN104604263B (en) | 2012-09-28 | 2013-09-19 | The method of seamless unicast-broadcast switching during the content streaming formatted for DASH |
CN201380045150.8A Active CN104704767B (en) | 2012-09-28 | 2013-09-20 | For method, circuit and the user equipment of the enhanced interferometry of channel state information (CSI) feedback |
CN201810384991.6A Active CN108471322B (en) | 2012-09-28 | 2013-09-20 | Method for enhanced interference measurement for Channel State Information (CSI) feedback |
CN201380045897.3A Active CN104620640B (en) | 2012-09-28 | 2013-09-24 | user equipment and access network discovery and selection function server |
CN201380045053.9A Active CN104584672B (en) | 2012-09-28 | 2013-09-24 | Evolved node for low power consumption in a wireless communication system |
CN201380045630.4A Expired - Fee Related CN104604299B (en) | 2012-09-28 | 2013-09-24 | The ANDSF strategy selected for WLAN and PLMN |
CN201380043775.0A Active CN104662997B (en) | 2012-09-28 | 2013-09-24 | The system and method for device-to-device communication in the case of for lacking the network coverage |
CN201380045568.9A Active CN104604284B (en) | 2012-09-28 | 2013-09-24 | Wireless signal for device-to-device communication measures and the system and method for report |
CN201380045050.5A Active CN104584620B (en) | 2012-09-28 | 2013-09-25 | Machine type communication monitoring framework for 3GPP system |
CN201380045057.7A Expired - Fee Related CN104584475B (en) | 2012-09-28 | 2013-09-25 | The transmission of uplink control information between eNB in carrier aggregation |
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CN201380045631.9A Expired - Fee Related CN104813693B (en) | 2012-09-28 | 2013-09-27 | Reference Signal Received Power (RSRP) mobile status assessment to cellular device |
CN201810412036.9A Active CN108566267B (en) | 2012-09-28 | 2013-09-27 | User equipment, method, medium and device for ePDCCH |
CN201380045208.9A Active CN104584464B (en) | 2012-09-28 | 2013-09-27 | It is preferred that the transmission of power consumption configurations |
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CN201810043888.5A Active CN108112064B (en) | 2012-09-28 | 2013-09-27 | Communication of preferred power consumption configuration |
CN201380044760.6A Active CN105103590B (en) | 2012-09-28 | 2013-09-27 | Discontinuous reception (DRX) enhancing in LTE system |
CN201380045621.5A Pending CN104904303A (en) | 2012-09-28 | 2013-09-27 | OS level WLAN/cellular aggregation for integrated femto and AP deployments |
CN201910402277.XA Active CN110311714B (en) | 2012-09-28 | 2013-09-27 | Discontinuous Reception (DRX) enhancements in LTE systems |
CN201380045068.5A Expired - Fee Related CN104604286B (en) | 2012-09-28 | 2013-09-30 | For transmitting as a stream and the Energy-aware multimedia adaptive of dialogue service |
CN201380044711.2A Active CN104584482B (en) | 2012-09-28 | 2013-09-30 | For P2P streams and the apparatus and method of download service based on IMS |
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